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Wireless Personal Communications

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24-04-2017

Quality of Service Aware Inter Carrier Interference Mitigation and Antenna Selection Schemes for Beyond 4G Systems

Authors: K. Vinoth Babu, G. Ramachandra Reddy

Published in: Wireless Personal Communications | Issue 1/2017

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Abstract

Future broadband wireless communication systems demand high quality of service (QoS) for anytime anywhere multimedia applications. The standards which use orthogonal frequency division multiplexing (OFDM) coupled with multi input multi output (MIMO) are expected to rule the future wireless world. Time selective nature of the channel introduces inter carrier interference (ICI), which is the major performance limiting parameter in OFDM based systems. ICI causes loss in spectral efficiency and results in poor bit error rate (BER) performance, affecting the QoS of MIMO-OFDM systems. The conventional single input single output (SISO)-OFDM-flexible subcarrier spacing (FSS) system offers better performance than the fixed subcarrier spacing systems in terms of ICI mitigation. But BER and spectral efficiency performance of SISO-OFDM-FSS is not good enough to satisfy the requirements of future wireless broadband services. To improve the BER performance, SISO-OFDM system is replaced by space frequency block coded (SFBC)-OFDM system, which adds spatial and frequency diversity benefits to the conventional system. More number of antennas in the MIMO scheme increases the hardware cost, computational complexity and percentage of overhead. In the present study, to improve the spectral efficiency and to reduce the complexity and cost, optimal transmit antenna selection (OTAS) is combined with the SFBC-OFDM-FSS scheme. The simulation results prove that the proposed SFBC-OFDM-FSS-OTAS scheme offers better QoS than the conventional SISO-OFDM-FSS scheme.

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Eddie, B. T., Wei, G., & Chen, F. J. (2007). Improving QoS with MIMO-OFDM in future broadband wireless networks. In Strengthening the role of ICT in development (pp. 360–371).

Torabi, M. (2008). Adaptive modulation for space–frequency block coded OFDM systems. AEU-International Journal of Electronics and Communications, 62(7), 521–533.CrossRef

Sesia, S., Toufik, I., & Baker, M. (2011). LTE—The UMTS long term evolution from theory to practice (2nd ed.). London: Wiley.CrossRef

Babu, K. V., Reddy, G. R., & Prakash, J. A. (2014). Fractionally spaced equalizer based on dynamically varying modulus algorithm for spectrally efficient channel compensation in SC-FDMA based systems. Wireless Networks, 20(6), 1387–1398.CrossRef

Farhang-Boroujeny, B. (2011). OFDM versus filter bank multicarrier. IEEE Signal Processing Magazine, 28(3), 92–112.CrossRef

Jeon, D., Kim, S., Kwon, B., Lee, H., & Lee, S. (2016). Prototype filter design for QAM-based filter bank multicarrier system. Digital Signal Processing, 57, 66–78.MathSciNetCrossRef

Mattera, D., Tanda, M., & Bellanger, M. (2016). Filter bank multicarrier with PAM modulation for future wireless systems. Signal Processing, 120, 594–606.CrossRef

Shahabinejad, M., & Talebi, S. (2013). Space–time–frequency coding over quasi-static frequency-selective channels with linear complexity for the ML receiver. Scientia Iranica, 20(3), 738–745.

Das, S. S. (2007). Techniques to enhance spectral efficiency of OFDM wireless systems. (Doctoral dissertation, Aalborg University).

10.

Horvat, M., Carbonelli, C., Bai, Z., & Jung, P. (2010). On the performance evaluation of an LTE SFBC system with Wiener channel estimation in frequency-selective channels. Computer Communications, 33(17), 2031–2038.CrossRef

11.

Oluwafemi, I. B., & Mneney, S. H. (2013). Review of space-time coded orthogonal frequency division multiplexing systems for wireless communication. IETE Technical Review, 30(5), 417–426.CrossRef

12.

Sreedhar, D., & Chockalingam, A. (2007). Detection of SFBC-OFDM signals in frequency and time-selective MIMO channels. In Proceedings of wireless communications and networking conference (pp. 852–857).

13.

Sreedhar, D., & Chockalingam, A. (2007). ICI-ISI mitigation in cooperative SFBC-OFDM with carrier frequency offset. In Proceedings of IEEE 18th international symposium on personal, indoor and mobile radio communications (pp. 1–5).

14.

Jadhao, A. M., & Ghatol, A. A. (2008). Effect of carrier frequency offset on cooperative Alamouti STC OFDM systems. IETE Technical Review, 25(4), 186–191.CrossRef

15.

Anandpara, M., Erwa, E., Golab, J., Smanta, R., & Wang, H. H. (2003). Inter-carrier interference cancellation for OFDM systems. Austin: University of Texas, EE 381K-11.

16.

Zhao, Y., & Häggman, S. G. (2001). Inter carrier interference self-cancellation scheme for OFDM mobile communication systems. IEEE Transactions on Communications, 49(7), 1185–1191.CrossRefMATH

17.

Choi, J. M., & Lee, J. H. (2009). Frequency-domain partial response coding for Alamouti SFBC-OFDM system in doubly selective channels. IEICE Transactions on Communications, 92(6), 2298–2302.CrossRef

18.

Stamoulis, A., Diggavi, S. N., & Al-Dhahir, N. (2002). Intercarrier interference in MIMO OFDM. IEEE Transactions on Signal Processing, 50(10), 2451–2464.CrossRef

19.

Kim, K., Park, H., & Kwon, H. M. (2011). Rate-compatible SFBC-OFDM under rapidly time-varying channels. IEEE Transactions on Communications, 59(8), 2070–2077.CrossRef

20.

Wang, Y. Y. (2014). Estimation of CFO and STO for an OFDM using general ICI self-cancellation precoding. Digital Signal Processing, 31, 35–44.CrossRef

21.

Jayaprakash, A., & Reddy, G. R. (2016). Covariance fitting based blind carrier frequency offset estimation method for OFDM systems. IEEE Transactions on Vehicular Technology, 65(12), 10101–10105.CrossRef

22.

Jayaprakash, A., & Reddy, G. R. (2016). Robust blind carrier frequency offset estimation algorithm for OFDM systems. Wireless Personal Communications. doi:10.1007/s11277-016-3650-9.

23.

Prasad, R., Das, S. S., & Rahman, M. I. (2010). Adaptive phy-mac design for broadband wireless systems (Vol. 10). Aalborg: River Publishers.

24.

Das, S. S., De Carvalho, E., & Prasad, R. (2008). Performance analysis of OFDM systems with adaptive sub carrier bandwidth. IEEE Transactions on Wireless Communications, 7(4), 1117–1122.CrossRef

25.

Das, S. S., Carvalho, E. D., & Prasad, R. (2007). Dynamically adaptive bandwidth for sub carriers in OFDM based wireless systems. In Proceedings of wireless communications and networking conference (pp. 1378–1383).

26.

Das, S. S., De Carvalho, E., & Prasad, R. (2007). Variable sub-carrier bandwidth in OFDM framework. Electronics Letters, 43(1), 46–48.CrossRef

27.

Gore, D., & Paulraj, A. J. (2002). MIMO antenna subset selection with space–time coding. IEEE Transactions on Signal Processing, 50(10), 2580–2588.CrossRef

28.

Sure, P., & Bhuma, C. M. (2015). A pilot aided channel estimator using DFT based time interpolator for massive MIMO-OFDM systems. AEU-International Journal of Electronics and Communications, 69(1), 321–327.CrossRef

29.

Molisch, A. F., Win, M. Z., Choi, Y. S., & Winters, J. H. (2005). Capacity of MIMO systems with antenna selection. IEEE Transactions on Wireless Communications, 4(4), 1759–1772.CrossRef

30.

Blum, R. S., & Winters, J. H. (2002). On optimum MIMO with antenna selection. IEEE Communications Letters, 6(8), 322–324.CrossRef

31.

Gorokhov, A., Gore, D., & Paulraj, A. (2003). Receive antenna selection for MIMO flat-fading channels: Theory and algorithms. IEEE Transactions on Information Theory, 49(10), 2687–2696.MathSciNetCrossRefMATH

32.

Hu, B. B., Liu, Y. A., Gang, X. I. E., Gao, J. C., & Yang, Y. L. (2014). Energy efficiency of massive MIMO wireless communication systems with antenna selection. The Journal of China Universities of Posts and Telecommunications, 21(6), 1–8.CrossRef

33.

Yu, X. B., Yin, X., Liu, X. S., & Xu, D. Z. (2012). Performance of variable-power adaptive M-QAM with transmit antenna selection and delayed feedback in Nakagami fading channel. AEU-International Journal of Electronics and Communications, 66(4), 340–348.CrossRef

34.

Trivedi, Y. N., & Chaturvedi, A. K. (2011). Performance analysis of multiple input single output systems using transmit beamforming and antenna selection with delayed channel state information at the transmitter. IET Communications, 5(6), 827–834.MathSciNetCrossRefMATH

35.

Arthi, M., Arulmozhivarman, P., Babu, K. V., & George, E. M. (2017). Quality of service aware antenna selection scheme for multi-hop relay networks. AEU-International Journal of Electronics and Communications, 71, 9–20.CrossRef

36.

Shi, H., Katayama, M., Yamazato, T., Okada, H., & Ogawa, A. (2001). An adaptive antenna selection scheme for transmit diversity in OFDM systems. In Proceedings of IEEE VTS 54th vehicular technology conference (pp. 2168–2172).

37.

Babu, K. V., Reddy, G. R., & Nallagatla, B. K. (2016). Spectral efficiency maximization in MISO-OFDM systems using rate adaptive bit loading and transmit antenna selection techniques. Journal of Engineering Science and Technology (JESTEC). http://jestec.taylors.edu.my/Articles%20in%20Press/12_11_4.pdf.

38.

Babu, K. V., Reddy, G. R., & Arthi, M. (2016). An improved bit loading technique for enhanced energy efficiency in next generation voice/video applications. Journal of Engineering Science and Technology (JESTEC), 11(4), 476–495.

39.

Babu, K. V., Reddy, G. R., & Arthi, M. (2012). Modified subcarrier bandwidth (MDSB) OFDM system for energy efficient transmission in high mobility applications. Journal of Theoretical and Applied Information Technology, 42, 221–226.

40.

Babu, K. V., Reddy, G. R., & Balakrishnan, L. (2014). Spectral efficiency improvement in OFDMA systems with modified adaptive subcarrier spacing based resource allocation algorithm. HKIE Transactions, 21(3), 158–169.CrossRef

41.

Alamouti, S. M. (1998). A simple transmit diversity technique for wireless communications. IEEE Journal on Selected Areas in Communications, 16(8), 1451–1458.CrossRef

42.

Tarokh, V., Jafarkhani, H., & Calderbank, A. R. (1999). Space-time block codes from orthogonal designs. IEEE Transactions on Information Theory, 45(5), 1456–1467.MathSciNetCrossRefMATH

43.

Rappaport, T. S. (2002). Mobile radio propagation: Small-scale fading and multipath, wireless communications (2nd ed., pp. 177–248). Prentice: Prentice Hall PTR.

Title: Quality of Service Aware Inter Carrier Interference Mitigation and Antenna Selection Schemes for Beyond 4G Systems
Authors: K. Vinoth Babu
G. Ramachandra Reddy
Publication date: 24-04-2017
Publisher: Springer US
Published in: Wireless Personal Communications / Issue 1/2017
Print ISSN: 0929-6212
Electronic ISSN: 1572-834X
DOI: https://doi.org/10.1007/s11277-017-4162-y

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